Primordial magnetotaxis in putative giant paleoproterozoic magnetofossils

Donardelli Bellon, Ualisson; Williams, Wyn; Trindade, Ricardo Ivan Ferreira; Maldanis, Lara; Galante, Douglas

doi:10.1073/pnas.2319148121

Proc. Natl. Acad. Sci. U.S.A.

2024

DOI: 10.1073/pnas.2319148121

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Primordial magnetotaxis in putative giant paleoproterozoic magnetofossils

Ualisson Donardelli Bellon,

Wyn Williams,

Ricardo Ivan Ferreira Trindade

et al.

Abstract: Magnetotactic bacteria produce chains of nanoscopic iron minerals used for navigation, which can be preserved over geological timescales in the form of magnetofossils. Micrometer-sized magnetite crystals with unusual shapes suggesting a biologically controlled mineralization have been found in the geological record and termed giant magnetofossils. The biological origin and function of giant magnetofossils remains unclear, due to the lack of modern analogues to giant magnetofossils. Using distinctive Ptychograp… Show more

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Coupling nanoscopic tomography and micromagnetic modelling to assess the stability of geomagnetic recorders

Donardelli Bellon,

Williams,

Trindade

et al. 2024

Commun Earth Environ

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The recording of planetary magnetic fields is often attributed to uniformly-magnetised nanoscopic iron oxides, called single-domain. Yet, the main magnetic constituents of rocks are more complex, non-uniformly magnetised grains in single or multi-vortex states. We know little about their behaviour due to limitations in defining their precise shape and internal magnetic structure. Here we combine non-destructive Ptychographic X-ray Computed Nano-tomography with micromagnetic modelling to explore the magnetic stability of remanence-bearing minerals. Applied to a microscopic rock sample, we identified hundreds of nanoscopic grains of magnetite/maghemite with diverse morphologies. Energy barrier calculations were performed for these irregularly shaped grains. For some grains, these morphological irregularities near the transition from single-domain to the single-vortex state allow for multiple domain states, some unstable and unable to record the field for significant periods. Additionally, some other grains exhibit temperature-dependent occupancy probabilities, potentially hampering experiments to recover the intensity of past magnetic fields.

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Coupling nanoscopic tomography and micromagnetic modelling to assess the stability of geomagnetic recorders

Donardelli Bellon,

Williams,

Trindade

et al. 2024

Commun Earth Environ

View full text Add to dashboard Cite

show abstract

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Primordial magnetotaxis in putative giant paleoproterozoic magnetofossils

Cited by 1 publication

References 54 publications

Coupling nanoscopic tomography and micromagnetic modelling to assess the stability of geomagnetic recorders

Coupling nanoscopic tomography and micromagnetic modelling to assess the stability of geomagnetic recorders

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